Coupled finite-discrete element modeling and potential applications in civil engineering

Journal of Science and Technology in Civil Engineering (STCE) - HUCE Pub Date : 2021-10-31 DOI:10.31814/stce.huce(nuce)2021-15(4)-10

N. Kien, V. T. Trung, Nguyen Nhu Hoang

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引用次数: 2

Abstract

Since its appearance at the last of seventy decades, the Discrete Element Modeling (DEM) has been widely used in the modeling of geomaterials but regrettably limited to small scales problems by considering grains interactions. Recently, a new trend has emerged in combining DEM with other methods. The coupled approach allows extending the methods toward a wide range of civil engineering applications. Among them, FEM×DEM coupling has been the topic of research over the past decade. The FEM×DEM coupling has been mainly developed in two categories: direct interaction and multi-scale coupled models. In the first regard, this paper summarizes the basic principle of FEM and DEM, then reviews a number of possible direct coupling strategies between FEM and DEM together with potential applications in civil engineering. The second objective is to develop a model that combines these two above mentioned methods in a multi-scale approach. The results obtained by the developed model have been proved to efficiently tackle the complicated problem in engineering applications by assessing both macro and micro features and establishing the linking information between them.

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耦合有限-离散元建模及其在土木工程中的潜在应用

自70年代末出现以来，离散元模型(DEM)在岩土材料建模中得到了广泛的应用，但令人遗憾的是，它仅限于考虑颗粒相互作用的小尺度问题。近年来，DEM与其他方法的结合出现了新的趋势。耦合方法允许将方法扩展到广泛的土木工程应用。其中，FEM×DEM耦合是近十年来研究的主题。FEM×DEM耦合主要发展为两类:直接相互作用模型和多尺度耦合模型。本文首先总结了有限元与DEM的基本原理，然后综述了几种可能的有限元与DEM直接耦合策略及其在土木工程中的潜在应用。第二个目标是开发一个模型，在多尺度方法中结合上述两种方法。结果表明，该模型通过评估宏观和微观特征，建立宏观和微观特征之间的联系信息，能够有效地解决工程应用中的复杂问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Science and Technology in Civil Engineering (STCE) - HUCE

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